Price from
52.99 USD
52.99 USD
2-1/8 SELFEED BIT" [Misc.] [Misc.] [Misc.] [Misc.]
Stores where to buy this product
Sponsored This site contains affiliate links for which we may receive compensation. More information
Acehardware.com
SponsoredMilwaukee 2-1/8 in. X 4-1/2 in. L Heat-Treated Steel Self-Feed Drill Bit Hex Shank 1 pc
Cheapest Offer
| This product in Comparor | |
|---|---|
|
Category
This product is cataloged in our store in these categories
|
|
|
International
Find this product in one of our international stores
|
This product has not been found in other countries
|
| Colors
Predominant colors of the product |
|
| Identifiers | |
| Brand |  Milwaukee is a brand of power tools and accessories. The company was founded in Milwaukee, Wisconsin in 1924. Milwaukee is a subsidiary of Techtronic Industries. |
| MPN | Milwaukee 48-25-2122 |
| ID | 24939544 |
| Dimensions / Weight | |
| Key Features | |
Related articles
(9780345472328 / 22846280) - Dweck, Carol - Paperback - Reprint, Updated - Ballantine Books Inc. - New York, United States - December 2007 - Random House USA Inc - Dimensions: 129 x 199 x 16mm | 218g
Silicone thermal pad with self‑adhesive backing, 120 mm by 20 mm and 1 mm thick, delivers high conductivity while remaining electrically non‑conductive. Ideal for GPU, SSD or CPU heat spreaders, it compresses smoothly to fill gaps and keep components cool. Two pads included for dual‑side cooling.
Silicone thermal pad, 120 × 20 × 2 mm, self‑adhesive and electrically non‑conductive, delivers 8 W/mK heat transfer while compressing to fill gaps on CPUs, GPUs or SSDs, operating from –100 °C to +250 °C.
Self-adhesive thermal pad made of silicone, conducting heat to cool computer or console heating elements, measuring 20x120x0.5mm, in a pack of 2.
Self-adhesive thermal pad made of silicone, conducting heat to cool computer or console heating elements, measuring 20x120x0.5mm, in a pack of 2.
Silicone thermal pad, 120 × 20 × 2 mm, self‑adhesive and electrically non‑conductive, delivers 8 W/mK heat transfer while compressing to fill gaps on CPUs, GPUs or SSDs, operating from –100 °C to +250 °C.